📄 symshort.m
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% The function iprime = symshort(t, i) defines the differential
% equations of the synchronous machine in Example 8.2 during a
% balanced three-phase fault. The function returns the state
% derivatives of the current.
% Copyright (c) 1998 H. Saadat
function iprime =symfault(t,i)
f=60.; w=2.*pi*f;
d=0.; d=d*pi/180.; theta=w*t+d +pi/2;
% Parameters of a 160 MVA, 15 kV Synchronous Machine
LF = 2.500; LD = 0.0068; LQ = 0.0016; Ld = 0.0072; Lq = 0.0070;
MF = 0.100; MD = 0.0054; MQ = 0.0026; MR = 0.1250;
ra = 0.002; rF = 0.4000; rD = 0.015; rQ = 0.0150;
VF = 400; % DC field voltage
V = [0; -VF; 0; 0; 0]; % Voltage column vector
k=sqrt(1.5);
R= [ra 0 0 w*Lq w*k*MQ
0 rF 0 0 0
0 0 rD 0 0
-w*Ld -w*k*MF -w*k*MD ra 0
0 0 0 0 rQ];
L =[Ld k*MF k*MD 0 0
k*MF LF MR 0 0
k*MD MR LD 0 0
0 0 0 Lq k*MQ
0 0 0 k*MQ LQ];
Li=inv(L);
iprime=- Li*V - Li*R*i;
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